Survey
* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project
* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project
Hospital-acquired infection wikipedia , lookup
Sarcocystis wikipedia , lookup
Multiple sclerosis research wikipedia , lookup
Ulcerative colitis wikipedia , lookup
Gastroenteritis wikipedia , lookup
Hygiene hypothesis wikipedia , lookup
Traveler's diarrhea wikipedia , lookup
Modulating the Gut Microbiome: The Role of Probiotics & Prebiotics Presented by: Stephen Olmstead, MD The views and opinions expressed herein are solely those of the presenter and do not necessarily represent those of Genova Diagnostics. Thus, Genova Diagnostics does not accept liability for consequences of any actions taken on the basis of the information provided. Michael Chapman, ND Medical Education Specialist - Asheville Stephen Olmstead, MD Chief Science Officer ProThera Inc. Technical Issues & Clinical Questions Please type any technical issue or clinical question into either the “Chat” or “Questions” boxes, making sure to send them to “Organizer” at any time during the webinar. We will be compiling your clinical questions and answering as many as we can the final 15 minutes of the webinar. DISCLAIMER: Please note that any and all emails provided may be used for follow up correspondence and/or for further Need More Resources? Ensure you have an account! Modulating the Gut Microbiome: The Role of Probiotics & Prebiotics Presented by: Stephen Olmstead, MD Chief Science Officer ProThera Inc The views and opinions expressed herein are solely those of the presenter and do not necessarily represent those of Genova Diagnostics. Thus, Genova Diagnostics does not accept liability for consequences of any actions taken on the basis of the information provided. The Human Intestinal Microbiota • 100 trillion microorganisms • 10 x number human cells • >150 x number human genes • >1800 genera by rRNA • 15,000-36,000 species by rRNA • >500 cultured species • Dominated by 2 divisions - Firmicutes (64%) - Bacteroidetes (23%) Human Colon false color barium enema • 99% anaerobic Qin et al. Nature 2010;464:59-65 The Intestinal Microbiota Organ Colonic mucosa scanning electron microscopy • Unique & vital organ • Weighs 1.5 Kg • Metabolic activity rivals liver • Immune & GI maturation • Normal CNS development • Colonization resistance • Immune system modulation • Metabolic modulation Transfer of Maternal Microbiota Maternal microbiota secreted in breast milk Maternal microbiota transferred to lymphocytes Dendritic cells sample maternal microbiota Rescigno et al. Nat Immunol 2001;2:361-7 Breast Milk Bifidobacterium Content Quantitative Real-Time PCR 43 Nursing Mothers 5.0 Log cells/mL 4.5 4.0 3.5 2.78±1.1 2 3.0 2.5 2.0 1.5 1.0 0.5 0.0 Sample Gueimonde et al. 2007 Prenatal Microbial Exposure Bacteria Isolated from Amniotic Fluid & Meconium Fetal ultrasound • Enterococcus • Staphylococcus • Streptococcus • Leuconostoc • Bifidobacterium • Rothia • Enterobacter • Klebsiella • Parabacteroides • Bacteroides Jiménez et al. Res Microbiol 2008;159:187-93 Changes in Microbiota with Age Log count bacteria/g feces 12 Bacteroides, Eubacterium, Peptococcaceae Bifidobacterium 10 8 Escherichia coli, Enterococcus 6 Lactobacillus 4 Clostridium perfringens 2 Birth Weaning Adult Old-age Mitsuoka Nutr Rev 1992;50:438-46 GI Microbiota – A Balanced Microecosystem Potentially Harmful Bacteria Potentially Helpful Bacteria Diarrhea/constipation Inhibition of exogenous and/or harmful bacteria Pain Infections Production of Toxins Inflammation Pseudomonas Proteus Modulation of immune functions Aid in digestion and/or absorption Staphylococci Stimulate GI motility Clostridia Synthesis of vitamins Enterococci Potential Probiotic Bacteria E. coli Lactobacilli Streptococci Eubacteria Bifidobacteria Bacteroides Gibson GR. J Nutrition 1995;125:1401-12 Metagenomic Analysis of the Human Distal Gut Microbiome Direct blastX contig analysis of DNA sequencing ~78 million base pairs 28-y/o female Methanobacterialis 9.1% Misc. bacteria 3.2% Spirochaetes 2.2% Bacteroidetes 2.8% Fusobacteria 1.7% Proteobacteria 9.1% Actinobacteria, other 4.8% Bifidobacteriales 21.8% Archaea, other 1.9% Bacillales 9.9% Lactobacillales 9.7% Clostridia 23.8% 37-y/o male Methanobacterialis 7.9% Misc. bacteria Archaea, other 3.3% 2.4% Spirochaetes 2.2% Bacteroidetes 3.4% Fusobacteria 2.0% Proteobacteria 9.0% Actinobacteria, other Bifidobacteriales 2.6% 5.3% Bacillales 13.7% Lactobacillales 12.4% Clostridia 35.9% Gill et al. Science 2006;312:1355-9 Gut Microbiota Enterotypes 85 Sanger metagenomes 33 Sanger metagenomes Danish Danish French Italian Spanish Japanese American 154 pyrosequenced 16S sequences American females Arumugam et al. Nature 2011;473:174-80 Microbiota Maintains Intestinal Integrity Lumen Microcins Defensins Pathogens Mucus Commensal bacteria SCFA Epithelium TNF IFNg IL-1b ROS NO Lamina propria/ Peyer’s patch PMN Teff TGFb IL-10 IL-6 IL-8 IP-10 Lumen Treg DC Gut Associated Lymphatic Tissue T Cell Activation & Differentiation Th9 Thf Epithelium Lumen Mucosa Th2 IL-4 IL-5 IL-10 IL-9 ASTHMA Over Expression ALLERGY — Th0 TReg TGFb IL-10 TNF Th1 Antigen IFNg Presentation IL-2 IL-17A Th17 IL-21 IL-22 Th22 IL-22 Bacteria IFNg Antigen TOLERANCE — Over Expression AUTOIMMUNE DISEASES O’Shea & Paul. Science 2010;327:1098-1102 Modulating the Gut Microbiome • Diet • Probiotics • Prebiotics • Antibiotics • Fecal transplantation Definitions Probiotics 1965 Lilly & Stillwell - microbe produced growth promoting factors 1989 Fuller - live microbial feed supplements, which benefit the host by improving intestinal microbial balance 2001 “viable microbial food supplements which beneficially influence the health of humans.” International Life Sciences Institute Europe, consensus document Definitions Prebiotics Gibson & Roberfroid - non-digestible substances that stimulate the growth and/or metabolic activity of selected GI microbes leading to health benefits Synbiotics Gibson & Roberfroid - a food or supplement that combines pro- & prebiotics Gibson & Roberfroid J Nutr 1995;125:1401-12 Probiotics - A Brief History • Essential probiotics • Probiotics on fruit & vegetables • 10,000 BCE fermented beverages • 3,000 BCE yogurt • Hippocrates (460-370 BCE) Sour milk for GI disorders Cacik Turkish yogurt dish • Pliny the Elder (23-79 CE) Health benefits of sour milk • Francis I (1476-1531) Cured of dysentery by yogurt The Godfather of Probiotics “The dependence of the intestinal microbes on the food makes it possible to adopt measures to modify the flora in our bodies and replace the harmful microbes with useful microbes.” The Prolongation of Life 1907 Eli Metchnikoff Nobel laureate 1908 1848-1916 Types of Probiotics • Lactic acid bacteria Lactobacillus species Bifidobacterium species Streptococcus thermophilus Enterococcus faecium Lactococcus species Leuconostoc species Pediococcus species acid bacteria • Non-lactic Bacillus species Proprionibacterium species E. coli Nissle 1917 yeast • Non-pathogenic Saccharomyces boulardii Lactobacillus Characteristics • Gram-positive, non-sporulating rods or coccobacilli • Homofermentative (primarily lactic acid) • Heterofermentative (lactic acid, CO2, ethanol & acetic acid) • Digest & metabolize proteins & carbohydrates • Synthesize B vitamins & vitamin K • Catabolize bile salts • Enhance innate & acquired immunity • Inhibit pro-inflammatory mediators • Antimicrobial activities against array of pathogens: – Pseudomonas, E. coli, Staph. aureus, Salmonella, – Shigella, C. difficile, Candida & Helicobacter pylori Lactobacillus Probiotics • L. acidophilus • L. brevis • L. bulgaricus • L. casei • L. crispatus • L. fermentum • L. gasseri • L. helveticus • L. jensenii • L. johnsonii • L. paracasei • L. plantarum • L. reuteri • L. rhamnosus • L. salivarius Lactobacillus acidophilus • Prototypic probiotic • Many strains reclassified • Transient GI species • Obligate homofermentative; DL-lactate isomers • Resistant to acid, bile, pepsin & pancreatin • >20 known peptidases; breaks down casein & gluten • Ferments lactose, other sugars & polysaccharides • Antagonizes array of pathogens • Reduces GI concentrations of carcinogenic enzymes Lactobacillus rhamnosus • Most studied probiotic • Relatively fragile • Transient GI species • Facultative heterofermentative; L(+)-lactate isomer • Excellent colonic mucosal adherence • More peptidases than any other Lactobacillus • Enhances innate & acquired immunity • Inhibits proinflammatory cytokines • Antagonizes rotavirus & C. difficile • Suppresses enterohemorrhagic E. coli internalization Lactobacillus casei • Hardy, adaptive probiotic • Closely related to L. rhamnosus • Transient species • Proline-specific peptidases • Facultative heterofermentative; L(+)-lactate isomer • Critical for dendritic cell differentiation • Augments number intestinal IgA-producing cells • Decreases proinflammatory cytokines secretion • Inhibits EHEC intestinal cell adherence & invasion Lactobacillus plantarum • Ubiquitous on plants • Lacking in modern diets • Transient GI species • Facultative heterofermentative; DL-lactate isomers • Highly resistant to acid & bile • Facilitates induction IL-10, central regulatory cytokine • Decreases production of inflammatory mediators • Supports intestinal barrier function • Reduces translocation of gut flora • Antagonizes C. difficile Bifidobacterium Characteristics • Gram-positive, non-sporulating rods or Y-shaped • Strictly anaerobic & fastidious • Unique metabolic hexose pathway – “Bifidus shunt” • All metabolize lactose • Ferment non-digestible oligosaccharides • Synthesize B vitamins & vitamin K • Enhance innate & acquired immunity • Inhibit proinflammatory mediators • Inhibit pathogens via organic acids & H2O2 Bifidobacterium Probiotics • • • B. adolescentis B. animalis B. bifidum • B. breve • B. infantis • B. lactis • B. longum • B. thermophilum Bifidobacterium longum • Often dominant GI bifidobacteria • Ferments array of oligosaccharides • Resistant to bile salts • Inhibits enterotoxigenic E. coli receptor binding & translocation • Inhibits Clostridium proliferation • Enhances GI sIgA response to dietary antigens • Modulates cytokine response to respiratory antigens Bifidobacterium bifidum • Present in large numbers • Reduced in allergic infants • Populations decline with age • Suppresses total & antigen-specific IgE production • Enhances IgM & IgG responses to select antigens • Activates B cell IgA secretion • Enhances IgA response to C. difficile toxin A • With L. acidophilus, supports normal flora during antibiotic Rx; reduces (+) C. difficile toxin A testing Bifidobacterium infantis • Frequent in infants • Rare in adults • Suppresses populations of Bacteroides vulgarus • Reduces proinflammatory cytokine production • Improves cytokine ratios in IBS • With L. acidophilus, reduces risk of necrotizing enterocolitis in very low birth weight infants • Promotes normal microbiota in children with diarrhea Bifidobacterium breve • Reduces Bacteroides fragilis & C. perfringens populations • Improves weight gain in very low birth weight infants • Stimulates Peyer’s patch B cell proliferation • Resistant to acid, bile, pepsin & pancreatin • Enhances B cell antibody production • Eliminates Camphylobacter jejuni • Antagonizes rotavirus & decreases rotavirus shedding Bacillus Characteristics • Gram-positive, sporulating rods • Facultative anaerobes • Fermentation end products include lactate, acetate, ethanol, acetoin, 2,3-butandiol • Transient commensals • Used in traditional fermented fish, manioc, soy foods • Enhance innate & acquired immunity • Inhibit pathogens via bacteriocins & lipopeptides • Promote colonocyte health via heat shock proteins Bacillus Probiotics • B. cereus • • B. clausii • B. laterosporus • B. pumilus • B. coagulans B. subtilis • B. licheniformis Streptococcus thermophilus • Yogurt & cheese starter • Highly adapted to lactose • Transient GI species • Protocooperation with L. bulgaricus • Formate, acetoin, acetylaldehyde, diacetyl & acetate • Inhibits pathogen proliferation • Reduces DNA damage & premalignant lesions • Clinical uses from rotavirus to ulcerative colitis • Protection from pathogenic Streptococcus spp. Saccharomyces boulardii • Transient, non-pathogenic yeast • Heat & pH resistant • Active ingredient in Asian medicinal teas • Increases brush border enzyme activities • Secretes leucine aminopeptidase; supports against dietary protein allergies • Increases gut short-chain fatty acid concentrations • Increases intestinal sIgA; crypt cell Ig receptors • Protease that inhibits C. difficile toxins A & B • Antagonizes Candida albicans in the gut • Effective against Entamoeba hystolytica & Giardia Probiotics - Documented Uses • Antibiotic-associated diarrhea • Vaginal dysbiosis • C. difficile-associated diarrhea • Urinary tract infections • Community acquired diarrhea • Allergies, atopic dermatitis, eczema • Traveler’s diarrhea • Lactose intolerance • Inflammatory bowel disease • Hyperlipidemia • Irritable bowel disease Antibiotic-associated Diarrhea • Disrupted GI microbiota • Associated with short-chain fatty acids (SCFA) • Occurs in 5-39% of adults; 11-50% of children • Up to 50% of cases due to Clostridium difficile • High relapse rate with Clostridium difficile • Onset up to 2 mos. post antibiotics Meta-analysis: Probiotics & Antibiotic-associated Diarrhea Risk Ratio (95% CI) Study Adam 1977 SB Surawicz 1989 SB McFarland 1985 SB Kotowska 2005 SB Lewis 1998 SB Cremonini 2002 SB Arovata 1999 LGG Vanderhoof 1999 LGG Szajewska 2001 LGG Thomas 2001 LGG Cremonini 2002 LGG Armuzzi 2001 LGG Nista 2004 BC Orrhage 1994 BL Seki 2003 CB Wunderlich 1989 EF Borgia 1982 EF Witsell 1995 LA Gotz 1979 LALB Tankanow 1990 LABL Orrhage 1994 LABL Cremonini 2002 LABL Correa 2005 BLST LaRosa 2003 BCOAGFOS Jirapinyo 2002 LABI 0.26 (0.13,0.53) 0.43 (0.21,0.90) 0.49 (0.21,1.17) 0.19 (0.07,0.55) 1.53 (0.54,4.35) 0.16 (0.02,1.21) 0.32 (0.09,1.11) 0.29 (0.13,0.63) 0.20 (0.06,0.66) 0.98 (0.68,1.42) 0.17 (0.02,1.27) 0.13 (0.03,0.52) 0.88 (0.05,0.28) 0.57 (0.24,1.35) 0.12 (0.05,0.28) 0.32 (0.07,1.41) 0.28 (0.11,0.72) 1.25 (0.81,1.94) 0.40 (0.12,1.36) 0.96 (0.61,1.50) 0.29 (0.08,1.05) 0.17 (0.02,1.27) 0.51 (0.21,1.23) 0.48 (0.29,0.77) 0.47 (0.18,1.21) Overall (95% CI) 0.43 (0.31,0.58) 0.0209 Favors probiotic 1.000 Of 25 RCT: Overall RR= 0.43 (95% CI 0.31- 0.58) 47.899 Favors control McFarland Am J Gastro 2006;101:812-22 Probiotics, Prebiotics & Antibiotics • Use Saccharomyces boulardii 10 billion CFU/d • Use Lactobacillus rhamnosus 5 billion CFU/d • Use multistrain formulation with Bifidobacterium • Consider prebiotics to increase SCFA-producing populations - Eubacterium, Roseburia • Use during antibiotic Rx • Take 1 hr before or 2 hrs post antibiotic dose • 30 day total duration Inflammatory Bowel Disease (IBD) • Crohn’s disease • Ulcerative colitis • Pouchitis • Abnormal response to certain commensal bacteria • High numbers of Bacteroides, Enterobacteriaceae, & Peptostreptococcus Colitis • Low numbers of Bifidobacterium Normal colon IBD Animal Model Aggressive colitis Cecal bacteria HLA B27 Transgenic Rat Bacteroides vulgatus Colitis E. coli Germ-free, no colitis Lactobacillus rhamnosus + cecal bacteria No Colitis No Colitis Rath et al. Infect Immun 1999;67:2969-74 Summary of 25 RCTs of Probiotics for IBD Hedin et al. Proc Nutr Soc 2007;66:307-15 Treatment of Crohn’s Disease by S. boulardii 32 patients with CD in remission Mesalamine (3 g/d) vs. mesalamine (2 g/d) & S. boulardii (2 x 1010/d) 6 mos. Rx Clinical Relapses 40 35 37.5% 30 p<0.05 25 with % 20 relapse 15 10 5 Control S. boulardii 6.2% 0 Guslandi et al. Dig Dis Sci 2000;45:1462-4 Prevention of Post Operative Crohn’s Disease by VSL #3 40 patients with CD in remission Mesalamine (4 g/d) vs. VSL #3 (3 x 1011/d) after rifaximin 9 mos. Rx Clinical Relapses 40 35 40% p=NS 30 25 with % 20 relapse 15 20% 10 5 0 Control VSL #3 Compieri et al. Gastroenterol 2000;118:A781 Treatment of Pouchitis by VSL #3 Clinical Relapses Gionchetti 2000 - 40 adults (2 x 100 1012 CFU/d) Mimura 2004 *p<0.05 Gionchetti 2003 1011 CFU/d) Followed for relapses (9-12 months) relapses % 80 - 36 adults (3 x 1012 CFU/d) - 40 adults (9 x 100% 60 56% 40 40% * * 20 15% * 15% 10% 0 Gionchetti 2000 Placebo Mimura 2004 Gionchetti 2003 VSL#3 Prebiotic Trials in IBD Design Substrate Dose Methods Results References DBRCT Inulin 24 g/d Ileal pouch-anal anastomosis. Pts. (20) with pouchitis randomized for 6 wks & assessed clinically, endoscopically & histologically Inulin lowered pH, increased butyrate, reduced B. fragilis, decreased inflammation, & effectively treated pouchitis Welters et al. Dis Colon Rect 2002;45:621-7 15 g/d Pts. (10) with active Crohn’s disease assessed clinically and by laboratory findings. Significant clinical improvement. Increased Bifidobacterium. Increased DC TLR4 expression. Lindsey et al. Gut 2006;55:348-55 Pts. (18) with active ulcerative colitis randomized for 1 mo. & assessed clinically, sigmoidoscopically & histologically Significant clinical improvement. Improved sigmoidoscopy scores. Decreased tissue infllammation. Increased healing. Furrie et al. Gut 2005;54:242-9 Open Label Inulin/FOS DBRCT Inulin/FOS + B. longum 6 g/d 2x1011/d Probiotics, Prebiotics & IBD • Crohn’s Disease –Use Saccharomyces boulardii 10 B CFU/d –3 mos on/1 mo off indefinitely –Inulin-based prebiotics 6-15 g/d –Multispecies probiotics (200-400 B CFU/d) • Ulcerative colitis –Use Saccharomyces boulardii 10 B CFU/d –Multispecies probiotics (400-800 B CFU/d) –Inulin-based prebiotics 6-15 g/d • Pouchitis –Multispecies probiotics (200-400 B CFU/d) –Inulin-based prebiotics 6-15 g/d Irritable Bowel Syndrome (IBS) • Common (10-20% adults) benign disorder(s) • Abdominal pain, bloating, diarrhea/constipation • Intestinal transit disturbances • Heightened visceral sensitivity • Altered GI microbiota –Decreased Lactobacillus, Collinsella –Increased Clostridium, Ruminococcus, Veilonella Lactobacillus acidophilus & Gut Pain Opioid Receptors Cannabinoid Receptors Meta-analysis of Probiotics & IBS • 19 RCTs; 1650 Pts • Probiotics significantly better than placebo • RR =0.71 (95% CI 0.57-0.88) • NNT = 4 (95% CI 3-12.5) • Efficacious organisms/formulas - Bifidobacterium infantis - Lactobacillus plantarum - High-dose, multispecies formula • Difficult population to study Moayyedi et al. Gut 2010;59:325-32 Probiotics & IBS • High-dose (200-400 B CFU/d) multispecies probiotic • Consider inulin-based prebiotic 10-15 g/d • If there is a response, indefinite therapy • Assess for food allergies/sensitivities • Rule out gluten sensitivity • Consider digestive enzymes Allergies, Asthma & Dermatitis • Pandemic effecting >20% of world’s population • Incidence of asthma by 50% from 1980 to 2000 • Related to post industrial lifestyle (Old Friends) • Altered GI microbiota is implicated Probiotics Inducing Immunotolerance • L. casei • L. bulgaricus • L. paracasei • L. rhamnosus • B. bifidum • B. breve • S. thermophilus T cell & dendritic cell Probiotics & Atopic Dermatitis/Eczema • 10 RCT • 90% show significant reduction in incidence/severity • Effective at prevention when given to pregnant women • Effective given to breast-feeding women • Effective given to infants in formula • Protection up to 4 (RR=0.57) & 7 yrs (RR=0.64) • Probiotics shown to be effective –L. rhamnosus, L. acidophilus, B. lactis, L. reuteri – Combination formulae effective Probiotics & Allergic Rhinitis • Probiotics reduce Sx & improve QOL measures • Probiotics shown to be effective –L. bulgaricus, L. paracasei, S. thermophiles – Combination formulae effective Prebiotics & Allergies • GOS & oligofructans increase regulatory T cells • Prebiotics upregulate sIgA • GOS/oligofructans atopic dermatitis in infants • GOS/oligofructans allergies to cow’s milk • GOS/oligofructans allergies, eczema & wheezing up to 18 mos post Rx • beta-Glucans (13; 16) reduce allergic rhinitis • beta-Glucans (13; 16) reduce IgE levels Prebiotics, Probiotics & Allergies • Consider pre- & probiotics for pregnant women – Multispecies, broad spectrum 50-100 B CFU/d • Consider low D(-)-lactate probiotics for infants – Multispecies Infant Formula 10-20 B CFU/d; doses up to 110 B CFU/Kg safe • Consider GOS/beta-glucan for bottle-fed infants – Use 225-550 mg/d until weaned • Multispecies, broad spectrum for children & adults - 50-100 B CFU/d indefinitely if response • GOS/beta-glucans for children & adults - 5-10 g/d indefinitely if response Probiotic Formulation Selection • Monostrain probiotics • Multistrain probiotics • Multispecies probiotics • Protocooperation & synergism • ? antagonisms among species - no evidence • Efficacy of multispecies formulation for ADD, IBS, URI, UC & pouchitis Chapman et al. Eur J Nutr 2011;50:1-17 Are Probiotic Benefits Strain-specific? • Strain-specific benefits a marketing claim • Uncritically echoed by academics & regulators • Validity requires head-to-head studies - Rare • L. rhamnosus GG has unique pili • Pili not linked to clinical benefit • Multiple strains & species have benefit in studies • Toxicity definitely strain-specific Lactobacillus acidophilus Gene Sequencing No significant differences between patented L. acidophilus NCFM & L. acidophilus La-14 –Genome 99.98% identical –Single 416-bp deletion in ABC transporter –16 single-base pair indels –95 SNPs L. acidophilus NCFM Genome Stahl. Genome Announc 2013;1:e00376-13 Probiotic Dosing • Start low – 10-25 billion CFU/d • Go slowly – increase dose weekly or as tolerated • Minimizes gas, abdominal discomfort, diarrhea Probiotic Dosing With or without food? Stomach pH: fasting: 0.8 – 1.5 with food: 5 – 7 Transit time: 30 min – 1 hr Take with food. Probiotic Safety • Daily doses >1 trillion CFU safe in adults; 110 billion CFU/Kg in infants • Lactobacillus bacteremia rare; usually endogenous • Bifidobacteremia only in bowel perforation or PID • S. boulardii fungemia in Pts w/ CV catheters • Probiotics safe in immunosuppressed patients • Probiotics safe in hospitalized & surgical patients Snydman. Clin Infect Dis 2008;46 Suppl 2:S104-11 Conclusions: Modulating the Gut Microbiome The Role of Prebiotics & Probiotics • Use of multispecies probiotics supported for a variety of GI conditions • Use of S. boulardii supported for AAD, CDAD, IBD, & traveler’s diarrhea • Use of multispecies probiotics supported for prevention & treatment of allergic disorders • Prebiotics show benefit for IBD and allergies • Clinical trials to document formulation efficacy • Outcomes studies - aging, cancer prevention Explore WWW.GDX.NET for more information and educational resources, including… Presenter: GDX – Brief video modules LIVE GDX – Previous webinar recordings GI University – Focused learning modules Conferences – Schedule of events we attend Test Menu – Detailed test profile information Stephen Olmstead, MD ________ LEARN Moderator: Michael Chapman, ND MY GDX – Order materials and get results Questions? Additional Education Materials: WWW.GDX.NET Sample Reports, Support Guides, Kit Instructions, FAQs, Payment Options, and much more! Additional Questions? US Client Services: 800-522-4762 UK Client Services: 020.8336.7750 Please schedule a complimentary appointment with one of our Medical Education Specialists for questions related to: – Diagnostic profiles featured in this webinar – How Genova’s profiles might support patients in your clinical practice – Review a profile that has already been completed on one of your patients We look forward to hearing from you! Upcoming LIVE GDX Webinar Topics October 2016 –Using the Elimination Diet in Clinical Practice • Kathy O’Neil-Smith, MD Register for upcoming LIVE GDX Webinars online at WWW.GDX.NET The views and opinions expressed herein are solely those of the presenter and do not necessarily represent those of Genova Diagnostics. Thus, Genova Diagnostics does not accept liability for consequences of any actions taken on the basis of the information provided. Modulating the Gut Microbiome: The Role of Probiotics & Prebiotics Presented by: Stephen Olmstead, MD The views and opinions expressed herein are solely those of the presenter and do not necessarily represent those of Genova Diagnostics. Thus, Genova Diagnostics does not accept liability for consequences of any actions taken on the basis of the information provided.